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  1. Harvest • University of Colorado(1994+) • Major System Components • Gatherer : locate + process information(webspider+) also Essence subsystem(summarizer) • Broker : Information server(interface to gathered data) • Indexing/Search subsystems : specialized search interface to broker • Object cache : supports rapid retrieval of frequently used object • Replicator : supports transparent mirror sites Distributed database technology cs466-harvest

  2. broker broker broker broker broker Gatherer G G G G G G G G G Broker subsystems • Database of what resources are where (Gatherfinds/extracts, brokerserves and maintains) May be hierarchical (and definitely distributed) Responsible for its regions of the web cs466-harvest

  3. Broker subsystems Currently brokers divided primarily by - document/data type(images, phone #’s) - content type(e.g. tech reports or news stories) May also be partitioned by geographical location Europe/Asia specialist(country specific trees) Language specialist(charset expertise) .EDU/.Com/.AOL specialists Specialists in material of given type Problem : where do brokers know where to find data of given type? cs466-harvest

  4. Broker Thesaurus Collector Query Manger Gatherer Storage Mgr And Indexer Replication Manager Provider Object Cache Broker SOIF 1. Search 2. Retrieve object & access methods Client SOIF Harvest Software Components cs466-harvest

  5. Index/Search subsystems (built on top of or into brokers)  GLIMPSE Traditional word  inverted index Extension : Variable region size Region or document Comput*  Documents where occur Graphics  Paragraphs where occur Hopkins  Khudanpur  Paragraphs where occur Supports only as much region detail as necessary (if same thing only occurs once, why not store exact location?) Claims : very small index(2 – 4 % of original text size) but flexible/supportive of collocational query (use a grep to search regions of potential co-occurrence)  Uses Essence objects cs466-harvest

  6. Index/Search subsystems • NEBULA Supports hierarchical classification schemes(automatic Yahoo!) And “Views”(precomputed query responses) basically vector clusters that are returned As full relevance set selling point : fast query response (don’t do individual document tests) but less flexible Precompute : compute graphics commodities trading venture capital cs466-harvest

  7. Caching Subsystem • Motivation for caching Minimize network traffic by reusing frequently requested items (e.g. LFU cache replacement strategy) • Hierarchical caching Larger caches stored on server shared by many machines if not in my local cache, use subnet’s cache (often provided by firewall software) Least Frequently Used cs466-harvest

  8. Stub Network Stub Network Stub Network Stub Network Stub Network Stub Network Stub Network Regional Network Regional Network Regional Network Stub Network Object Cache Backbone Network Hierarchical Cache Arrangement cs466-harvest

  9. Caching Subsystem My machine N 1 Subnet/server cache 3 2 Netscape Cached Objects 3 2 Company Firewall 3 2 N 1 Regional cache N 2 2 N cs466-harvest

  10. Download Expires Distance from download Distance to expiration date Confidence P(ask for update) = f ( , , , Reliability of provider’s estimates , My budget ) cs466-harvest

  11. Cache Subsystem • Problem with Caching: • I don’t know if a cache object has been updated • before its next use without checking(at least HEAD) • - no mechanism in web for remotely forced cache flush • Expires: 0 • Expires : Thu, 16 May 2001 14:40:30 GMT Only supports predictive expiration (says in advance how long a copy may be used) But what if unexpected change before expiration or unchanged persistence afterwords? cs466-harvest

  12. Object Cache/Replicator Data access efficiency • Log of use(LRU : Least Recently Used) • Most popular files distributed access network sites (in local storage)  problem of efficient expiration, version control cs466-harvest

  13. Harvest Replication Subsystem Motivation : like to have(complete) regional copies with mechanism to ensure active consistency updates mirror-d(replication tool for Harvest using ftp mirror) site2 site1 site3 Thin black = mirror Thick gray = locally maintained master copies cs466-harvest

  14. Harvest Replication Subsystem • “mirror-d” replication tool – weakly consistent replicated tree of files • Motivation : multiple copies for future access • (e.g. Europe, North America)  replication domain • Problem : maintaining data consistency • (using ftp-mirrors) • Logical topology  replication subgroups that coordinate consistency internally share updates within subgroup domain/domain. Physical issues(network bandwidth/usage) help determine how replication domains propagate(flood) updates among its neighbors cs466-harvest

  15. master Replica 2 Replica11 Replica 9 Replica10 Replica 5 Replica 8 Replica 3 Replica 1 Replica 6 Replica 4 Replication Group Machines responsible for propagating copies and ensuring consistency between A & B Group B Group A Dynamically reconfigurable (B + C may communicate later with sites 5 + 11 if bandwidth or load changes) Group C cs466-harvest

  16. master Replica 3 Replica 2 Replica 5 Replica 1 Replica 4 Although Replication Domain members are stable, Pathways for inter-domain communication may change Based on dynamic properties of load + bandwidth Group B Group A Replicator System Overview cs466-harvest

  17. Logical inter-domain network topology is a subset of the full physical topology (and is dynamically reconfigurable based on network load and bandwidth) Logical Topology Physical Topology Group 1 member Group 2 member Group 3 member Non-group member Replication domains and physical versus logical update topology cs466-harvest

  18. Replication Subsystem • Active consistent updates (if a server changes its master copy, it notifies mirror sites) • Harvest supports replication domains • mirroring within domain carefully coordinated/synchronized • Mirroring/replication between domains involves gradual propagation of changes(between sites responsible for inter-domain communication) cs466-harvest

  19. Replication in Broker world Domain A Domain B master master Domain C science master Replication of brokers (and child brokers) news finance cs466-harvest

  20. The (Future) Organization of the WEB User agents – goal directed extraction, analysis, even dialog Meta Brokers – meta search collection/query fusion Brokers(Index, Search) Gatherers(Analyze, label) extract “essence” Finders(Scouts, Spiders) – map + locate page Content (Web pages + providers) cs466-harvest